Some days ago a guy explained me that on ruby on rails the queries are done on models. Because it gets already saved at your data before be requested on views and the query.
By the way I've learned and had been working until now, I'm setting the query on views.py and passing, through a context variable. So I started to read about Model.Manager and still didn't find a answer to which way is better:
queries made on views
queries made by simple functions on models
queries made on models.Manager class for each model
Use custom QuerySets and ModelManagers in your models
call your model's ModelManager custom methods from within your views
pass the returned values (querysets, instances or whatever) to the templates (or JSON serializer etc)
It's a matter of separation of concerns:
the template (or json serializer or whatever) doesn't have to know where data come from nor they were obtained - only what the data structure is
views don't have to know about how the query is implemented, only on how to get relevant data
only the model layer should know about it's implementation (encapsulation 101)
Every model is associated with a Manager (default one is objects)
>>> from django.contrib.auth.models import User
>>> user = User.objects.all()
>>> type(user)
<class 'django.db.models.query.QuerySet'>
When you need to make any queries to the model you need a manager for this. In the above example user doing a query on objects manger of User Model.
3-queries made on models.Manager class for each model - correct interpretation
Click here for Documentation
Ref.
By default, Django adds a Manager with the name objects to every Django model class.
If u have specific business logic, you can make use of managers to override built-in model methods like save() and delete() to add business logic to default database behaviour or you can specifically design some query logic.
file name ---- > models.py
from .managers import ModelNameManager
class ModelName(Base):
title = models.CharField(max_length=255, blank=True, null=True)
headline = models.CharField(max_length=255, blank=True, null=True)
objects = ModelNameManager()
create a file managers.py file in your application
file name ---- > managers.py
class ModelNameQuerySet(models.QuerySet):
def by_name(self, id):
return self.filter(id=id)
class ModelNameManager(models.Manager):
def get_queryset(self):
return ModelNameQuerySet(self.model, using=self._db)
def by_name(self, ad):
return self.get_queryset().by_name(id)
in Views.py or any services file file your query will be
import ModelName
obj = ModelName.get_queryset(id)
obj.title
this will return the object based on the query written in managers.
I hope this is helpful.
According to the Django idioms want to add some advice that can be useful:
model managers it's a place for most common queries, not for all queries. Managers describe basic methods for working with models. If you have a widely-used logic for your model with queryset - put it to the manager's method. For example, my users split by domains, so I want to get the user by name and domain, so add the get_by_name_and_domain method to the user model manager. Also, you can access your model by the model attribute in the manager.
models are the part of MTV (Model-View-Template) model on Django and the main purpose of the 'model' itself is to describe db-object but not related business logic. So put your custom queries to views and remember about DRY principle.
When showing {{ user }} in a Django template, the default behavior is to show the username, i.e. user.username.
I'm changing this to show the user's initials instead, which are stored in a separate (OneToOneField) UserProfile model.
So in customsignup/models.py I've overridden the __unicode__ function successfully, with the desired result:
# __unicode__-function overridden.
def show_userprofile_initials(self):
return self.userprofile.initials
User.__unicode__ = show_userprofile_initials
But of course, the database is hit again because it needs to independently select the UserProfile model every time a user object is asked to show itself as a string. So even though this works, it escalates the number of database hits quite a bit.
So what I'd like to do, is to automatically use select_related('userprofile') whenever a User model is called from the database, seeing that I will essentially always want the profile when dealing with the user in the first place.
In more technical terms, I'm attempting to override the model manager of an existing model. So I'm in no control over the User model definition itself, since that's in an imported library.
So I've tried overriding the objects member of the User model in the same way that I overrode the __unicode__ function, like so:
# A model manager for automatically selecting the related userprofile-table
# when selecting from user-table.
class UserManager(models.Manager):
def get_queryset(self):
# Testing indicates that code here will NOT run.
return super(UserManager, self).get_queryset().select_related('userprofile')
User.objects = UserManager()
Is this supposed to work? If so, what am I getting wrong?
(I will mark an answer as correct if it can show that this is not supposed to work in the first place.)
A similar question I've found is here, but it's approached from the other end:
Automatically select related for OneToOne field
No, User.objects = MyManger() is not supposed to work. According to the docs, there are just two supported methods for extending the provided auth User model, either a profile model, as you are doing, or a proxy model, which probably doesn't fit your case. From the docs (emphasis added):
There are two ways to extend the default User model without substituting your own model. If the changes you need are purely behavioral, and don’t require any change to what is stored in the database, you can create a proxy model based on User. This allows for any of the features offered by proxy models including default ordering, custom managers, or custom model methods.
If you wish to store information related to User, you can use a OneToOneField to a model containing the fields for additional information. This one-to-one model is often called a profile model, as it might store non-auth related information about a site user.
As an alternative to extending the provided auth User model, you can provide your own custom User model. Then you will have complete control over its managers.
Instead, consider simply replacing {{ user }} with {{ user.profile.initials }}. Creating the OneToOne field on your profile model also creates a reverse accessor for instances of the related model. You can specify the reverse accessor name by the related_name keyword argument on the profile model field. For example...
from django.db import models
from django.contrib.auth.models import User
class UserProfile(models.Model)
user = models.OneToOneField('auth.User', related_name='profile')
initials = models.CharField(max_length=6)
some_user = User.objects.first()
# assuming there is already a profile related to this user
some_user.profile.initials = 'S.P.Y.'
You could also make a __str__ method for your profile model like
def __str__(self):
return self.initials
Then when you do {{ user.profile }} in a template, the initials will be shown.
I'm using Django 1.9 on my site and I need an effective way of completely ignore the inactive users, so I don't send them any notifications, emails, etc.
I've tried using a custom Model Manager that only returns the active ones, like this:
class ActiveAccountsManager(models.Manager):
use_for_related_fields = True
def get_queryset(self):
return super(ActiveAccountsManager, self).get_queryset().filter(user__is_active=True)
class Account(models.Model):
class Meta:
verbose_name = _('Account')
verbose_name_plural = _('Accounts')
objects = ActiveAccountsManager()
all_accounts = models.Manager() # Enabling the obtention of all the users, instead of only the active ones
user = models.OneToOneField(User)
type = models.IntegerField(choices=ACCOUNT_TYPES, default=-1)
And, while it works exactly as I want when I directly try to query Account objects, it doesn't when they are referenced through an object that has a ForeignKey relation with it. For example, if I had a Comment model like the following one:
class Comment(models.Model):
author = models.ForeignKey(Account)
I'd like that, when I query for Comment objects, the ones whose author is a inactive user (i.e. an user that the default Manager of the Account model won't return) aren't returned either, instead of the current behavior that returns the comment but says that the account related to it does not exist
Is there any way of achieving this without specifically defining a custom ModelManager on the Comment class? Because the thing is that I want to achieve this in a lot of classes related to the Account one and I can't think of a way of doing it without being extremely repetitive.
Please, don't hesitate to ask if any part of my question isn't clear enough or if I need to provide more details about my code. Thank you so much in advance.
It should already work in your case, as the docs (https://docs.djangoproject.com/en/1.9/topics/db/managers/#default-managers) say:
Default managers
If you use custom Manager objects, take note that the first Manager
Django encounters (in the order in which they’re defined in the model)
has a special status. Django interprets the first Manager defined in a
class as the “default” Manager, and several parts of Django (including
dumpdata) will use that Manager exclusively for that model. As a
result, it’s a good idea to be careful in your choice of default
manager in order to avoid a situation where overriding get_queryset()
results in an inability to retrieve objects you’d like to work with.
Since the ActiveAccountsManager declaration comes first in your model, it should be already marked as the "default" one.
If you were to update to Django >= 1.10, you can set up explicitly the default manager for your model (see https://docs.djangoproject.com/en/1.11/ref/models/options/#default-manager-name).
I am writing a project in Django and I see that 80% of the code is in the file models.py. This code is confusing and, after a certain time, I cease to understand what is really happening.
Here is what bothers me:
I find it ugly that my model level (which was supposed to be
responsible only for the work with data from a database) is also
sending email, walking on API to other services, etc.
Also, I find it unacceptable to place business logic in the view, because
this way it becomes difficult to control. For example, in my
application there are at least three ways to create new
instances of User, but technically it should create them uniformly.
I do not always notice when the methods and
properties of my models become non-deterministic and when they develop
side effects.
Here is a simple example. At first, the User model was like this:
class User(db.Models):
def get_present_name(self):
return self.name or 'Anonymous'
def activate(self):
self.status = 'activated'
self.save()
Over time, it turned into this:
class User(db.Models):
def get_present_name(self):
# property became non-deterministic in terms of database
# data is taken from another service by api
return remote_api.request_user_name(self.uid) or 'Anonymous'
def activate(self):
# method now has a side effect (send message to user)
self.status = 'activated'
self.save()
send_mail('Your account is activated!', '…', [self.email])
What I want is to separate entities in my code:
Database level entities, i.e. database level logic: What kind of data does my application store?
application level entities, i.e. business level logic: What does my application do?
What are the good practices to implement such an approach that can be applied in Django?
It seems like you are asking about the difference between the data model and the domain model – the latter is where you can find the business logic and entities as perceived by your end user, the former is where you actually store your data.
Furthermore, I've interpreted the 3rd part of your question as: how to notice failure to keep these models separate.
These are two very different concepts and it's always hard to keep them separate. However, there are some common patterns and tools that can be used for this purpose.
About the Domain Model
The first thing you need to recognize is that your domain model is not really about data; it is about actions and questions such as "activate this user", "deactivate this user", "which users are currently activated?", and "what is this user's name?". In classical terms: it's about queries and commands.
Thinking in Commands
Let's start by looking at the commands in your example: "activate this user" and "deactivate this user". The nice thing about commands is that they can easily be expressed by small given-when-then scenario's:
given an inactive user
when the admin activates this user
then the user becomes active
and a confirmation e-mail is sent to the user
and an entry is added to the system log
(etc. etc.)
Such scenario's are useful to see how different parts of your infrastructure can be affected by a single command – in this case your database (some kind of 'active' flag), your mail server, your system log, etc.
Such scenario's also really help you in setting up a Test Driven Development environment.
And finally, thinking in commands really helps you create a task-oriented application. Your users will appreciate this :-)
Expressing Commands
Django provides two easy ways of expressing commands; they are both valid options and it is not unusual to mix the two approaches.
The service layer
The service module has already been described by #Hedde. Here you define a separate module and each command is represented as a function.
services.py
def activate_user(user_id):
user = User.objects.get(pk=user_id)
# set active flag
user.active = True
user.save()
# mail user
send_mail(...)
# etc etc
Using forms
The other way is to use a Django Form for each command. I prefer this approach, because it combines multiple closely related aspects:
execution of the command (what does it do?)
validation of the command parameters (can it do this?)
presentation of the command (how can I do this?)
forms.py
class ActivateUserForm(forms.Form):
user_id = IntegerField(widget = UsernameSelectWidget, verbose_name="Select a user to activate")
# the username select widget is not a standard Django widget, I just made it up
def clean_user_id(self):
user_id = self.cleaned_data['user_id']
if User.objects.get(pk=user_id).active:
raise ValidationError("This user cannot be activated")
# you can also check authorizations etc.
return user_id
def execute(self):
"""
This is not a standard method in the forms API; it is intended to replace the
'extract-data-from-form-in-view-and-do-stuff' pattern by a more testable pattern.
"""
user_id = self.cleaned_data['user_id']
user = User.objects.get(pk=user_id)
# set active flag
user.active = True
user.save()
# mail user
send_mail(...)
# etc etc
Thinking in Queries
You example did not contain any queries, so I took the liberty of making up a few useful queries. I prefer to use the term "question", but queries is the classical terminology. Interesting queries are: "What is the name of this user?", "Can this user log in?", "Show me a list of deactivated users", and "What is the geographical distribution of deactivated users?"
Before embarking on answering these queries, you should always ask yourself this question, is this:
a presentational query just for my templates, and/or
a business logic query tied to executing my commands, and/or
a reporting query.
Presentational queries are merely made to improve the user interface. The answers to business logic queries directly affect the execution of your commands. Reporting queries are merely for analytical purposes and have looser time constraints. These categories are not mutually exclusive.
The other question is: "do I have complete control over the answers?" For example, when querying the user's name (in this context) we do not have any control over the outcome, because we rely on an external API.
Making Queries
The most basic query in Django is the use of the Manager object:
User.objects.filter(active=True)
Of course, this only works if the data is actually represented in your data model. This is not always the case. In those cases, you can consider the options below.
Custom tags and filters
The first alternative is useful for queries that are merely presentational: custom tags and template filters.
template.html
<h1>Welcome, {{ user|friendly_name }}</h1>
template_tags.py
#register.filter
def friendly_name(user):
return remote_api.get_cached_name(user.id)
Query methods
If your query is not merely presentational, you could add queries to your services.py (if you are using that), or introduce a queries.py module:
queries.py
def inactive_users():
return User.objects.filter(active=False)
def users_called_publysher():
for user in User.objects.all():
if remote_api.get_cached_name(user.id) == "publysher":
yield user
Proxy models
Proxy models are very useful in the context of business logic and reporting. You basically define an enhanced subset of your model. You can override a Manager’s base QuerySet by overriding the Manager.get_queryset() method.
models.py
class InactiveUserManager(models.Manager):
def get_queryset(self):
query_set = super(InactiveUserManager, self).get_queryset()
return query_set.filter(active=False)
class InactiveUser(User):
"""
>>> for user in InactiveUser.objects.all():
… assert user.active is False
"""
objects = InactiveUserManager()
class Meta:
proxy = True
Query models
For queries that are inherently complex, but are executed quite often, there is the possibility of query models. A query model is a form of denormalization where relevant data for a single query is stored in a separate model. The trick of course is to keep the denormalized model in sync with the primary model. Query models can only be used if changes are entirely under your control.
models.py
class InactiveUserDistribution(models.Model):
country = CharField(max_length=200)
inactive_user_count = IntegerField(default=0)
The first option is to update these models in your commands. This is very useful if these models are only changed by one or two commands.
forms.py
class ActivateUserForm(forms.Form):
# see above
def execute(self):
# see above
query_model = InactiveUserDistribution.objects.get_or_create(country=user.country)
query_model.inactive_user_count -= 1
query_model.save()
A better option would be to use custom signals. These signals are of course emitted by your commands. Signals have the advantage that you can keep multiple query models in sync with your original model. Furthermore, signal processing can be offloaded to background tasks, using Celery or similar frameworks.
signals.py
user_activated = Signal(providing_args = ['user'])
user_deactivated = Signal(providing_args = ['user'])
forms.py
class ActivateUserForm(forms.Form):
# see above
def execute(self):
# see above
user_activated.send_robust(sender=self, user=user)
models.py
class InactiveUserDistribution(models.Model):
# see above
#receiver(user_activated)
def on_user_activated(sender, **kwargs):
user = kwargs['user']
query_model = InactiveUserDistribution.objects.get_or_create(country=user.country)
query_model.inactive_user_count -= 1
query_model.save()
Keeping it clean
When using this approach, it becomes ridiculously easy to determine if your code stays clean. Just follow these guidelines:
Does my model contain methods that do more than managing database state? You should extract a command.
Does my model contain properties that do not map to database fields? You should extract a query.
Does my model reference infrastructure that is not my database (such as mail)? You should extract a command.
The same goes for views (because views often suffer from the same problem).
Does my view actively manage database models? You should extract a command.
Some References
Django documentation: proxy models
Django documentation: signals
Architecture: Domain Driven Design
I usually implement a service layer in between views and models. This acts like your project's API and gives you a good helicopter view of what is going on. I inherited this practice from a colleague of mine that uses this layering technique a lot with Java projects (JSF), e.g:
models.py
class Book:
author = models.ForeignKey(User)
title = models.CharField(max_length=125)
class Meta:
app_label = "library"
services.py
from library.models import Book
def get_books(limit=None, **filters):
""" simple service function for retrieving books can be widely extended """
return Book.objects.filter(**filters)[:limit] # list[:None] will return the entire list
views.py
from library.services import get_books
class BookListView(ListView):
""" simple view, e.g. implement a _build and _apply filters function """
queryset = get_books()
Mind you, I usually take models, views and services to module level and
separate even further depending on the project's size
First of all, Don't repeat yourself.
Then, please be careful not to overengineer, sometimes it is just a waste of time, and makes someone lose focus on what is important. Review the zen of python from time to time.
Take a look at active projects
more people = more need to organize properly
the django repository they have a straightforward structure.
the pip repository they have a straigtforward directory structure.
the fabric repository is also a good one to look at.
you can place all your models under yourapp/models/logicalgroup.py
e.g User, Group and related models can go under yourapp/models/users.py
e.g Poll, Question, Answer ... could go under yourapp/models/polls.py
load what you need in __all__ inside of yourapp/models/__init__.py
More about MVC
model is your data
this includes your actual data
this also includes your session / cookie / cache / fs / index data
user interacts with controller to manipulate the model
this could be an API, or a view that saves/updates your data
this can be tuned with request.GET / request.POST ...etc
think paging or filtering too.
the data updates the view
the templates take the data and format it accordingly
APIs even w/o templates are part of the view; e.g. tastypie or piston
this should also account for the middleware.
Take advantage of middleware / templatetags
If you need some work to be done for each request, middleware is one way to go.
e.g. adding timestamps
e.g. updating metrics about page hits
e.g. populating a cache
If you have snippets of code that always reoccur for formatting objects, templatetags are good.
e.g. active tab / url breadcrumbs
Take advantage of model managers
creating User can go in a UserManager(models.Manager).
gory details for instances should go on the models.Model.
gory details for queryset could go in a models.Manager.
you might want to create a User one at a time, so you may think that it should live on the model itself, but when creating the object, you probably don't have all the details:
Example:
class UserManager(models.Manager):
def create_user(self, username, ...):
# plain create
def create_superuser(self, username, ...):
# may set is_superuser field.
def activate(self, username):
# may use save() and send_mail()
def activate_in_bulk(self, queryset):
# may use queryset.update() instead of save()
# may use send_mass_mail() instead of send_mail()
Make use of forms where possible
A lot of boilerplate code can be eliminated if you have forms that map to a model. The ModelForm documentation is pretty good. Separating code for forms from model code can be good if you have a lot of customization (or sometimes avoid cyclic import errors for more advanced uses).
Use management commands when possible
e.g. yourapp/management/commands/createsuperuser.py
e.g. yourapp/management/commands/activateinbulk.py
if you have business logic, you can separate it out
django.contrib.auth uses backends, just like db has a backend...etc.
add a setting for your business logic (e.g. AUTHENTICATION_BACKENDS)
you could use django.contrib.auth.backends.RemoteUserBackend
you could use yourapp.backends.remote_api.RemoteUserBackend
you could use yourapp.backends.memcached.RemoteUserBackend
delegate the difficult business logic to the backend
make sure to set the expectation right on the input/output.
changing business logic is as simple as changing a setting :)
backend example:
class User(db.Models):
def get_present_name(self):
# property became not deterministic in terms of database
# data is taken from another service by api
return remote_api.request_user_name(self.uid) or 'Anonymous'
could become:
class User(db.Models):
def get_present_name(self):
for backend in get_backends():
try:
return backend.get_present_name(self)
except: # make pylint happy.
pass
return None
more about design patterns
there's already a good question about design patterns
a very good video about practical design patterns
django's backends are obvious use of delegation design pattern.
more about interface boundaries
Is the code you want to use really part of the models? -> yourapp.models
Is the code part of business logic? -> yourapp.vendor
Is the code part of generic tools / libs? -> yourapp.libs
Is the code part of business logic libs? -> yourapp.libs.vendor or yourapp.vendor.libs
Here is a good one: can you test your code independently?
yes, good :)
no, you may have an interface problem
when there is clear separation, unittest should be a breeze with the use of mocking
Is the separation logical?
yes, good :)
no, you may have trouble testing those logical concepts separately.
Do you think you will need to refactor when you get 10x more code?
yes, no good, no bueno, refactor could be a lot of work
no, that's just awesome!
In short, you could have
yourapp/core/backends.py
yourapp/core/models/__init__.py
yourapp/core/models/users.py
yourapp/core/models/questions.py
yourapp/core/backends.py
yourapp/core/forms.py
yourapp/core/handlers.py
yourapp/core/management/commands/__init__.py
yourapp/core/management/commands/closepolls.py
yourapp/core/management/commands/removeduplicates.py
yourapp/core/middleware.py
yourapp/core/signals.py
yourapp/core/templatetags/__init__.py
yourapp/core/templatetags/polls_extras.py
yourapp/core/views/__init__.py
yourapp/core/views/users.py
yourapp/core/views/questions.py
yourapp/core/signals.py
yourapp/lib/utils.py
yourapp/lib/textanalysis.py
yourapp/lib/ratings.py
yourapp/vendor/backends.py
yourapp/vendor/morebusinesslogic.py
yourapp/vendor/handlers.py
yourapp/vendor/middleware.py
yourapp/vendor/signals.py
yourapp/tests/test_polls.py
yourapp/tests/test_questions.py
yourapp/tests/test_duplicates.py
yourapp/tests/test_ratings.py
or anything else that helps you; finding the interfaces you need and the boundaries will help you.
Django employs a slightly modified kind of MVC. There's no concept of a "controller" in Django. The closest proxy is a "view", which tends to cause confusion with MVC converts because in MVC a view is more like Django's "template".
In Django, a "model" is not merely a database abstraction. In some respects, it shares duty with the Django's "view" as the controller of MVC. It holds the entirety of behavior associated with an instance. If that instance needs to interact with an external API as part of it's behavior, then that's still model code. In fact, models aren't required to interact with the database at all, so you could conceivable have models that entirely exist as an interactive layer to an external API. It's a much more free concept of a "model".
In Django, MVC structure is as Chris Pratt said, different from classical MVC model used in other frameworks, I think the main reason for doing this is avoiding a too strict application structure, like happens in others MVC frameworks like CakePHP.
In Django, MVC was implemented in the following way:
View layer is splitted in two. The views should be used only to manage HTTP requests, they are called and respond to them. Views communicate with the rest of your application (forms, modelforms, custom classes, of in simple cases directly with models).
To create the interface we use Templates. Templates are string-like to Django, it maps a context into them, and this context was communicated to the view by the application (when view asks).
Model layer gives encapsulation, abstraction, validation, intelligence and makes your data object-oriented (they say someday DBMS will also). This doesn't means that you should make huge models.py files (in fact a very good advice is to split your models in different files, put them into a folder called 'models', make an '__init__.py' file into this folder where you import all your models and finally use the attribute 'app_label' of models.Model class). Model should abstract you from operating with data, it will make your application simpler. You should also, if required, create external classes, like "tools" for your models.You can also use heritage in models, setting the 'abstract' attribute of your model's Meta class to 'True'.
Where is the rest? Well, small web applications generally are a sort of an interface to data, in some small program cases using views to query or insert data would be enough. More common cases will use Forms or ModelForms, which are actually "controllers". This is not other than a practical solution to a common problem, and a very fast one. It's what a website use to do.
If Forms are not enogh for you, then you should create your own classes to do the magic, a very good example of this is admin application: you can read ModelAmin code, this actually works as a controller. There is not a standard structure, I suggest you to examine existing Django apps, it depends on each case. This is what Django developers intended, you can add xml parser class, an API connector class, add Celery for performing tasks, twisted for a reactor-based application, use only the ORM, make a web service, modify the admin application and more... It's your responsability to make good quality code, respect MVC philosophy or not, make it module based and creating your own abstraction layers. It's very flexible.
My advice: read as much code as you can, there are lots of django applications around, but don't take them so seriously. Each case is different, patterns and theory helps, but not always, this is an imprecise cience, django just provide you good tools that you can use to aliviate some pains (like admin interface, web form validation, i18n, observer pattern implementation, all the previously mentioned and others), but good designs come from experienced designers.
PS.: use 'User' class from auth application (from standard django), you can make for example user profiles, or at least read its code, it will be useful for your case.
An old question, but I'd like to offer my solution anyway. It's based on acceptance that model objects too require some additional functionality while it's awkward to place it within the models.py. Heavy business logic may be written separately depending on personal taste, but I at least like the model to do everything related to itself. This solution also supports those who like to have all the logic placed within models themselves.
As such, I devised a hack that allows me to separate logic from model definitions and still get all the hinting from my IDE.
The advantages should be obvious, but this lists a few that I have observed:
DB definitions remain just that - no logic "garbage" attached
Model-related logic is all placed neatly in one place
All the services (forms, REST, views) have a single access point to logic
Best of all: I did not have to rewrite any code once I realised that my models.py became too cluttered and had to separate the logic away. The separation is smooth and iterative: I could do a function at a time or entire class or the entire models.py.
I have been using this with Python 3.4 and greater and Django 1.8 and greater.
app/models.py
....
from app.logic.user import UserLogic
class User(models.Model, UserLogic):
field1 = models.AnyField(....)
... field definitions ...
app/logic/user.py
if False:
# This allows the IDE to know about the User model and its member fields
from main.models import User
class UserLogic(object):
def logic_function(self: 'User'):
... code with hinting working normally ...
The only thing I can't figure out is how to make my IDE (PyCharm in this case) recognise that UserLogic is actually User model. But since this is obviously a hack, I'm quite happy to accept the little nuisance of always specifying type for self parameter.
I would have to agree with you. There are a lot of possibilities in django but best place to start is reviewing Django's design philosophy.
Calling an API from a model property would not be ideal, it seems like it would make more sense to do something like this in the view and possibly create a service layer to keep things dry. If the call to the API is non-blocking and the call is an expensive one, sending the request to a service worker (a worker that consumes from a queue) might make sense.
As per Django's design philosophy models encapsulate every aspect of an "object". So all business logic related to that object should live there:
Include all relevant domain logic
Models should encapsulate every aspect of an “object,” following Martin Fowler’s Active Record design pattern.
The side effects you describe are apparent, the logic here could be better broken down into Querysets and managers. Here is an example:
models.py
import datetime
from djongo import models
from django.db.models.query import QuerySet
from django.contrib import admin
from django.db import transaction
class MyUser(models.Model):
present_name = models.TextField(null=False, blank=True)
status = models.TextField(null=False, blank=True)
last_active = models.DateTimeField(auto_now=True, editable=False)
# As mentioned you could put this in a template tag to pull it
# from cache there. Depending on how it is used, it could be
# retrieved from within the admin view or from a custom view
# if that is the only place you will use it.
#def get_present_name(self):
# # property became non-deterministic in terms of database
# # data is taken from another service by api
# return remote_api.request_user_name(self.uid) or 'Anonymous'
# Moved to admin as an action
# def activate(self):
# # method now has a side effect (send message to user)
# self.status = 'activated'
# self.save()
# # send email via email service
# #send_mail('Your account is activated!', '…', [self.email])
class Meta:
ordering = ['-id'] # Needed for DRF pagination
def __unicode__(self):
return '{}'.format(self.pk)
class MyUserRegistrationQuerySet(QuerySet):
def for_inactive_users(self):
new_date = datetime.datetime.now() - datetime.timedelta(days=3*365) # 3 Years ago
return self.filter(last_active__lte=new_date.year)
def by_user_id(self, user_ids):
return self.filter(id__in=user_ids)
class MyUserRegistrationManager(models.Manager):
def get_query_set(self):
return MyUserRegistrationQuerySet(self.model, using=self._db)
def with_no_activity(self):
return self.get_query_set().for_inactive_users()
admin.py
# Then in model admin
class MyUserRegistrationAdmin(admin.ModelAdmin):
actions = (
'send_welcome_emails',
)
def send_activate_emails(self, request, queryset):
rows_affected = 0
for obj in queryset:
with transaction.commit_on_success():
# send_email('welcome_email', request, obj) # send email via email service
obj.status = 'activated'
obj.save()
rows_affected += 1
self.message_user(request, 'sent %d' % rows_affected)
admin.site.register(MyUser, MyUserRegistrationAdmin)
I'm mostly agree with chosen answer (https://stackoverflow.com/a/12857584/871392), but want to add option in Making Queries section.
One can define QuerySet classes for models for make filter queries and so on. After that you can proxy this queryset class for model's manager, like build-in Manager and QuerySet classes do.
Although, if you had to query several data models to get one domain model, it seems more reasonable to me to put this in separate module like suggested before.
Most comprehensive article on the different options with pros and cons:
Idea #1: Fat Models
Idea #2: Putting Business Logic in Views/Forms
Idea #3: Services
Idea #4: QuerySets/Managers
Conclusion
Source:
https://sunscrapers.com/blog/where-to-put-business-logic-django/